RU2511256C1 - Method of accumulating moisture in soil in cultivating agricultural crops - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: method comprises loosening of arable and subsurface soil layers 0.10-0.18 m below theplough sole, formation of water-absorbent gaps with their filling with plant and root residues and applied organic fertilizers. At that the para-ploughing is carried out with the intervals of 0.5-0.7 m. And in the arable layer, in the middle part of the gap, the drainage channels are made, and the chopped and evenly distributed straw after harvesting is combed out of stubble, moved into the gap space and embedded in the made gaps, in soil ecotones in the form of bands of fluffy consistency, saturated with organic matter and soil microflora. Along the made gaps the tilled crops are planted. The main crop cultivation is carried out in the spaces between the gaps, and the tillage units are moved along the fixed routes with a deviation of no more than 5-10 cm. The soil loosening and replenishment of organic matter of soil ecotones with straw residues is carried out after harvesting of spiked cereals as necessary, and during the rest time for embedding of the plant and stubble residues the methods of surface tillage are used.EFFECT: method enables to increase agricultural crop yield in years different in the amount of rainfall through rational redistribution of moisture, organic residues in the soil and precise placement of tilled crops on bioreclaimed plots of agrolandscape located in the form of bands - soil ecotones promoting more efficient use of natural resources of moisture and soil fertility.2 cl, 1 dwg

Description

The invention relates to agriculture, in particular to methods of cultivating crops. A known method of combining the main anti-erosion tillage and fertilizing (RF patent 2164730, CL AB 49/06, publ. 04/10/2001), including the main anti-erosion tillage together with cutting slots inclined in the longitudinal-vertical plane and cutting horizontal slots located above inclined, as well as the formation of subsoil moisture-accumulating containers in the form of trapezoids located in the lower part of inclined slots. At the same time, a uniform layer-by-layer distribution of fertilizers of different types in horizontal and inclined slots is made and their subsequent incorporation with mulching of the upper soil layer. This treatment can significantly reduce the manifestation of water and wind erosion in the fields, as well as increase crop yields. The disadvantage of this method is the rapid shedding of inclined and horizontal slots after the passage of the working bodies, which prevents the moisture accumulating in the upper mulching layer from penetrating deeper into the soil.

A known method of cultivation of agricultural crops (A.S. USSR 1531877, class AB 79/02, publ. 12/30/1989), comprising loosening the arable and subsurface layers of the soil, moreover, cracks with molehills are cut in the subsurface layer, which are filled with soil of the fertile layer. Simultaneously with the siphoning, liquid organic fertilizers are introduced into the molehills, and liquid mineral fertilizers are introduced into the seed bed. In order to prepare the soil for sowing seeds over molehills, profile loosening of the upper part of the walls of the cracks and the formation of slopes with an angle between them of 60-90 ° are carried out. The profile form obtained in this way meets to the greatest extent the agrotechnical requirements of the formation and development of a powerful root system of plants. All this allows to reduce moisture loss, improve the water-air regime of the soil, create conditions for the intensive development of microorganisms and earthworms.

The disadvantage of this method is that the slots are mulched by soil, which has a relatively high density and reduces the water-conducting ability of the slit.

The closest analogue to the method of cultivation of crops is a method of accumulation of moisture in the soil during the cultivation of winter wheat under irrigation conditions (RF patent 2172577, CL AB 79/02, AB 49/02, AB 13/16, publ. 08/27/2001), including mulching the soil with the plant residues of the precursor and the applied organic fertilizers. After peeling the plant residues of stubble and aerial parts of the predecessor, the arable and subsurface horizon is loosened below the plow sole by 0.10-0.18 m in increments between loosening zones of 0.3-0.4 m. Then plowing is performed with a complete turn of the formation, simultaneously with which inclined water-absorbing slots are formed with the filling of the latter with plant and root residues and introduced organic fertilizers, while the upper crest of the filler is 3-5 cm below the sowing depth of winter wheat seeds. The above method ensures the intensive development of plants even in extremely arid years with high soil and air temperatures, as well as dry winds and irrigation conditions using the example of the Yubileynaya 50 variety, guaranteed to provide a yield increase of 1.5 to 2 tons of grain per hectare.

The disadvantages of this method include high energy consumption, the absence of aftereffect in subsequent years and a noticeable increase in crop yields only in dry years. With favorable soil moisture, the main obstacle to increasing the productivity of cultivated plants will be the intensification of the decomposition of plant residues in water-absorbing cracks, as a result of which the concentration of toxic substances will increase and the amount of nitrogen will decrease. Plants growing near the decomposition of plant debris will be in a depressed state. In this case, the effectiveness of the proposed method of moisture conservation will be unstable. On heavy and low humus soils, the increase in crop productivity will be higher than on fertile and structured soils, where a negative effect is also possible.

The technical task of the invention is a guaranteed increase in crop yields in different years according to the amount of precipitation due to a decrease in energy consumption for tillage due to the rational redistribution of moisture, organic residues in the soil and the exact placement of row crops in biomeliorated plots of agrolandscape located in the form of strips (soil ecotones) that contribute to increasing the efficiency of the use of natural resources of moisture and soil fertility.

The solution to this problem is achieved by the following set of features of the method.

In the autumn period, the arable and subsurface layers are loosened below the plow sole by 0.10-0.18 m. At the same time, water-absorbing cracks are formed with an interval of 0.5 ... 0.7 m, in the middle part of which (in the arable layer) are cut drainage channels, and the crushed and evenly distributed straw after harvesting is combed out of the stubble, moved to the slotted space and embedded in the cut slots. In the future, tillage, crop care and harvesting equipment move along a constant route with a deviation of no more than 5-10 cm, which in 4-6 years will lead to the formation of soil ecotones (cultivated areas of the soil in the form of strips saturated with organic matter, soil microflora, zoofauna, which have loose constitution and are able to redistribute moisture from the soil surface to the slit space) at the location of the cracks. Also, for the formation of soil ecotones and the destruction of weeds in the crop rotation field removed from the established crop rotation, the rotation of steam (pure or occupied by green crops) and winter wheat is used. After the ecotonized field is introduced into the crop rotation, according to the crop rotation scheme, soil ecotones are cultivated cultivated crops along the cut slots along the cut slots, the root system of which reinforces the walls of the slit, and the rest (uncultivated) crops are sown in the traditional way. At the same time, mineral fertilizers are introduced locally under the root system along the slit space. In subsequent years, loosening of the soil and replenishment of the organic matter of soil ecotones with straw residues is carried out after harvesting cereal crops as necessary, and the rest of the time surface cultivation techniques are used to seal plant and stubble residues.

In contrast to the known in the proposed method, the slotting is carried out with an interval of 0.5 ... 0.7 m, molehill is made in the middle part of the gap, and its upper part is mulched by the plant residues of the predecessor culture collected from the field surface. After that, all agricultural machinery will move along the technological rut along the cut cracks, contributing to the formation of soil ecotones in 4-6 years. In order to intensify the process of formation of soil ecotones, as well as to destroy weeds in the crop rotation field removed from the established crop rotation, an alternation of steam (pure or occupied by green crops) and winter wheat is used during this period. Upon completion of the formation of soil ecotones in the field according to the crop rotation pattern along the cut slots, cultivated crops are sown, the root system of which strengthens the walls of the slit, and the main agricultural crop is cultivated in the spaces between the slots. Mineral fertilizers are applied locally under the root system of row crops. Subsequently, loosening of the soil and replenishment of the organic matter of soil ecotones with straw residues is carried out after harvesting of cereal crops as necessary, and the rest of the time surface cultivation techniques are used to seal plant and stubble residues.

The novelty and originality of the proposed method lies in the fact that to increase the efficiency of accumulation and preservation of moisture in the soil, the upper part of the cut slit is mulched by plant residues that are previously combed out from the stubble and moved to the area of the slit. In this case, the gap is cut at intervals of 0.5 ... 0.7 m and in the middle part contains moleholes, into which mineral fertilizers are applied locally. In the next 4-6 years, the field is removed from crop rotation, and all agricultural machinery moves along a constant route with a deviation of no more than 5-10 cm along the cut gaps, which, renewed annually and saturated with organic matter, form ecotones (media boundaries). For faster formation of soil ecotones and destruction of weeds in the crop rotation field derived from the established crop rotation, rotation of steam (pure or occupied by sideral crops) and winter wheat is used for the period necessary to achieve these goals. After the ecotones are formed, the field is introduced into the crop rotation, and row crops are sown next to the cut openings, and the main agricultural crop is cultivated in the inter-slit space. Mineral fertilizers are applied locally under the root system of row crops. Further loosening of the soil and replenishment of the organic matter of the soil ecotones with straw residues is carried out after harvesting of cereal crops as necessary, and the rest of the time surface cultivation techniques are used to seal plant and stubble residues.

Figure 1 shows a cross section of arable and subsurface horizons of the soil.

The method is as follows. When harvesting the precursor culture, the stems and other crop residues are crushed and evenly distributed over the field surface by the combine, forming a mulching layer 1. When the method is carried out, the arable and subsurface layers are loosened below the plow sole by 0.10-0.18 m using a plow cultivator with inclined racks. At the same time, water-absorbing slots 2 are cut at intervals of 0.5 ... 0.7 m, a depth of 0.35 ... 0.43 m and a width of 0.04 m each, as well as molehills 4 with a diameter of 0.1 m in the middle of each slot at a depth of 0.15 m. A part of the straw mass is combed out from the stubble 6 left on the surface of the field, fed into the crevice region and embedded in the upper part of the slot 2 to a depth of 0.10 ... 0.15 m.

When the tillage is carried out, the GPS signal receiver installed on the tractor and the control system combined with it (for example, “Auto Trac”) remembers the course and in subsequent years will allow the tractor to move strictly along the line fixed during the first pass of the implement. Thus, during subsequent technological operations, all tillage equipment, crop care equipment, and harvesting equipment will move along the technological track along cut slits 2, which will allow the soil-cultivating tools to restore the water supply channel (slot), thereby ensuring guaranteed penetration of moisture deep into. Also, the advancement of subsurface implements along the soil sections gradually saturated with organic residues will reduce traction resistance and increase the working capacity of agricultural units. The presence of a molehill under a vertically mulled slot will not allow straw that is icy and swollen from moisture to prevent the penetration of melt water through the slot into the depth.

The following year, this field is removed from crop rotation and left under clean or occupied (green manure) steam to destroy weeds by surface cultivation and maximize decomposition of straw residues in the crevice space.

The alternation of steam and winter crops continues until the field is cleaned of weeds and in the place of localization of straw residues 3 (in the form of strips - ecotones) the soil does not become the most fertile, capable of redistributing surface moisture from winter and summer through a loosened surface and crevice space precipitation into deeper moisture-saving soil horizons.

After achieving the above results, an ecotonized field is introduced into the crop rotation. The presence on it of ecotone bands 3 with soil fertility characteristics favorable for cultivating row crops, will significantly reduce the number of deep tillages in the crop rotation and thereby reduce the annual cost of this agricultural reception.

Sowing row crops is carried out in prepared strips - ecotones 3 located above slit 2. At the same time, locally mineral fertilizers 5 are introduced under the root system along the slots, which eliminates the lack of nitrogen in the soil caused by straw overheating. Decomposed and semi-decomposed straw residues mixed with soil during surface treatments will not adversely affect seedlings and young plants of row crops. The presence of a small (5-8 cm) mulching layer 1 above the slot 2 protects moisture from diffuse convection blowing in the summer. The root system of row crops under conditions of better aeration and provision of moisture (due to its redistribution directly under the root system), developing along the cracks, will further strengthen (reinforce) its walls. The cultivation of the main crop is carried out in the spaces between the gaps simultaneously with row crops.

The creation of soil ecotones against the background of improved moisture supply, the reduction of the anthropogenic load on the soil by agricultural machinery drivers and the rejection of reservoir rotation will allow creating conditions for the development of earthworms in the chernozem steppe, which, in turn, will improve the water-physical properties of the soil and increase its fertility.

The combination of these positive effects will provide a guaranteed increase in crop yields in different years according to the amount of precipitation.

Claims (2)

1. The method of accumulation of moisture in the soil when cultivating crops, including loosening the arable and subsoil layers of the soil below the plow sole at 0.10-0.18 m, the formation of water-absorbing cracks with filling them with plant and root residues and introduced organic fertilizers, characterized in that the slotting is carried out with an interval of 0.5-0.7 m, and in the arable layer, in the middle part of the gap drainage channels are made, and the crushed and evenly distributed straw after harvesting is combed out from the stubble and moved to the crevice the soil and cultivate in cut gaps, in soil ecotones in the form of loose-laden bands saturated with organic matter and soil microflora, tilled crops are sown along the cut gaps, the main agricultural crop is cultivated in the spaces between the gaps, while the tillage units move along a constant route with deviation no more than 5-10 cm. 2. The method of accumulating moisture in the soil when cultivating crops according to claim 1, characterized in that the loosening of the soil and replenishment of the organic matter of the soil ecotones with straw residues is carried out after harvesting cereal crops as necessary, and at the rest of the time for planting plant and stubble residues apply methods of surface tillage.

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